A framework to support teacher noticing of students' mathematical thinking in technology‐mediated environments

IF 0.8 Q3 EDUCATION & EDUCATIONAL RESEARCH
Allison W. McCulloch, Lara K. Dick, Jennifer N. Lovett
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引用次数: 1

Abstract

Abstract The practice of teacher noticing students' mathematical thinking often includes three interrelated components: attending to students' strategies, interpreting students' understandings, and deciding how to respond on the basis of students' understanding. This practice gains complexity in technology‐mediated environments (i.e., using technology‐enhanced math tasks) because it requires attending to and interpreting students' engagement with technology. Current frameworks implicitly assume the practice includes noticing the ways students use tools (including technology tools) in their work, but do not explicitly highlight the role of the tool. While research has shown that using these frameworks supports preservice secondary mathematics teachers (PSTs) developing noticing practices, it has also shown that PSTs largely overlook students' technology engagement when they are working on technology‐enhanced tasks ( Journal for Research in Mathematics Education , 2010; 41(2):169–202). In this article, we describe our adaptation of Jacobs et al.'s framework for teacher noticing student mathematical thinking to include a focus on making students' technology‐tool engagement explicit when noticing in technology‐mediated environments, the Noticing in Technology‐Mediated Environments (NITE) framework. We describe the theoretical foundations of the framework, provide a video case example, and then illustrate how the framework can be used by mathematics teacher educators to support PSTs' noticing when students are working in technology‐mediated environments.
一个支持教师在技术介导环境中注意学生数学思维的框架
教师关注学生数学思维的实践通常包括三个相互关联的组成部分:关注学生的策略,解释学生的理解,在学生理解的基础上决定如何应对。这种实践在技术介导的环境中(例如,使用技术增强的数学任务)变得更加复杂,因为它需要关注和解释学生与技术的互动。当前的框架隐含地假设实践包括注意学生在工作中使用工具(包括技术工具)的方式,但没有明确强调工具的作用。虽然研究表明,使用这些框架有助于职前中学数学教师(pst)发展注意实践,但研究也表明,pst在很大程度上忽视了学生在从事技术增强任务时的技术参与(Journal for research in mathematics Education, 2010;41(2): 169 - 202)。在本文中,我们描述了我们对Jacobs等人的教师注意学生数学思维框架的调整,包括在技术介导的环境中注意学生的技术工具参与的重点,即技术介导环境中的注意(NITE)框架。我们描述了该框架的理论基础,提供了一个视频案例,然后说明了数学教师教育工作者如何使用该框架来支持pst在学生在技术介导的环境中工作时的注意。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
School Science and Mathematics
School Science and Mathematics EDUCATION & EDUCATIONAL RESEARCH-
CiteScore
2.30
自引率
9.10%
发文量
47
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